Data from the manuscript regarding the analysis of leachate volumes at Ohio landfills to assess sources of moisture. Data includes moisture contents, precipitation, evaportranspiration, and leachate volumes or masses. This dataset is associated with the following publication: Krause, M., W. Eades, N. Detwiler, D. Marro, A. Schwarber, and T. Tolaymat. Assessing moisture contributions from precipitation, waste, and leachate for active municipal solid waste landfills. JOURNAL OF ENVIRONMENTAL MANAGEMENT. Elsevier Science Ltd, New York, NY, USA, 344: 118443, (2023).

Monthly landfill leachate volumes and annual 2-dimensional planar surface areas. This dataset is associated with the following publication: Krause, M., N. Detwiler, W. Eades, D. Marro, A. Schwarber, and T. Tolaymat. Dataset of leachate volumes and surface areas for municipal solid waste (MSW) landfills in Ohio, USA from 1988-2020. Data in Brief. Elsevier B.V., Amsterdam, NETHERLANDS, 47: 108961, (2023).

Leachate volumes and composition data before and after a subsurface exothermic reaction. This dataset is associated with the following publication: Krause, M., W. Eades, N. Detwiler, and T. Tolaymat. Leachate indicators of an elevated temperature landfill. WASTE MANAGEMENT. Elsevier Science Ltd, New York, NY, USA, 171: 628-633, (2023).

Rainfall and runoff data were collected during non-winter months between 2018 and 2020 at 10 rain gages and 12 calibrated H-flumes located in Ohio Department of Transportation (ODOT) highway median-strip catchments. The data were used to compute event-based summary statistics of rainfall and runoff. A rainfall-runoff “event” was defined to begin at the time of the first measured rainfall and end when rainfall and runoff (if any) ceased and remained ceased for at least 3 hours. The summary statistics (along with selected metadata) are included in this data release.

Rainfall and runoff data were collected during non-winter months between 2018 and 2020 at 10 rain gages and 12 calibrated H-flumes located in Ohio Department of Transportation (ODOT) highway median-strip catchments. The data were used to compute event-based summary statistics of rainfall and runoff. A rainfall-runoff “event” was defined to begin at the time of the first measured rainfall and end when rainfall and runoff (if any) ceased and remained ceased for at least 3 hours. The summary statistics (along with selected metadata) are included in this data release.

This metadata record describes monthly input and output data covering the period 1900-2015 for a water-balance model described in McCabe and Wolock (2011). The input datasets are precipitation and air temperature from the PRISM group at Oregon State University. The model outputs include estimated potential evapotranspiration (PET), actual evapotranspiration (AET), runoff (RUN) (streamflow per unit area), soil moisture storage (STO), and snowfall (SNO). The datasets are arranged in tables of monthly total or average values measured in millimeters or degrees C and then multiplied by 100. The data are indexed by the identifier PRISMID, which refers to an ASCII raster of cells in an associated file named PRISMID.asc. Water-balance model inputs and outputs also can be linked to a file (PRISMID_LL.csv) of latitude and longitude values in a separate comma separated data file based on PRISMID values. Each input and output variable comma separated file contains 10 years of monthly data for all 481639 PRISMID raster cells in the conterminous United States. The files containing input and output data can be georeferenced by joining them to an ASCII raster of PRISMID cells, named prismid.asc. The source for the input data is the PRISM (Parameter-elevation Relationships on Independent Slopes Model) Group at Oregon State University (http://www.prism.oregonstate.edu/historical/ and http://www.prism.oregonstate.edu/recent/). These data were downloaded from the PRISM web site on various dates.

This metadata record describes monthly input and output data covering the period 1900-2015 for a water-balance model described in McCabe and Wolock (2011). The input datasets are precipitation and air temperature from the PRISM group at Oregon State University. The model outputs include estimated potential evapotranspiration (PET), actual evapotranspiration (AET), runoff (RUN) (streamflow per unit area), soil moisture storage (STO), and snowfall (SNO). The datasets are arranged in tables of monthly total or average values measured in millimeters or degrees C and then multiplied by 100. The data are indexed by the identifier PRISMID, which refers to an ASCII raster of cells in an associated file named PRISMID.asc. Water-balance model inputs and outputs also can be linked to a file (PRISMID_LL.csv) of latitude and longitude values in a separate comma separated data file based on PRISMID values. Each input and output variable comma separated file contains 10 years of monthly data for all 481639 PRISMID raster cells in the conterminous United States. The files containing input and output data can be georeferenced by joining them to an ASCII raster of PRISMID cells, named prismid.asc. The source for the input data is the PRISM (Parameter-elevation Relationships on Independent Slopes Model) Group at Oregon State University (http://www.prism.oregonstate.edu/historical/ and http://www.prism.oregonstate.edu/recent/). These data were downloaded from the PRISM web site on various dates.

This dataset, created in support of USGS Scientific Investigations Report 2020-5075, Estimates of Groundwater Discharge by Evapotranspiration, Stump Spring and Hiko Springs, Clark County, Nevada, 2016-18, represents the groundwater discharge area (GDA) for the Stump Springs riparian area and Area of Critical Environmental Concern (ACEC). Vegetated areas within the GDA are composed of phreatophytic shrubs interspersed with xeric vegetation and bare soil. The GDA was delineated by visual interpretation of 1-meter National Agriculture Imagery Program (NAIP) aerial imagery acquired in May of 2015. The ACEC boundary was determined by the Bureau of Land Management.

Actual evapotranspiration (ETa) rates from the Operational Simplified Surface Energy Balance (SSEBop) method, before and after bias corrections, are presented for basins located wholly or partially within the St. Johns River Water Management District (SJRWMD). The SSEBop annual rates are provided at about a one square-kilometer scale from 2000 to 2017. Annual ETa rates calculated from the application of the water-balance method (wbETa) to 19 basins in the SJRWMD and annual land-use ETa (luETa) rates calculated from monthly average crop coefficient ratios are also provided in this data set. A GIS shapefile provides land-use type and annual ETa rate for each year of record. Data are tabulated in spreadsheets for each basin and are referred to by the name between parenthesis: Fort Drum Creek basin (02231342), Blue Cypress Creek basin (02231396), St. Johns River at Melbourne basin (02232000), Pennywash Creek basin (02232155), Apopka Beauclair Canal basin (02237700), Ocklawaha Moss Bluff basin (02238500), Orange Creek at Orange Spring basin (02243000), St. Johns River at Buffalo Bluff basin (02244040), Haw Creek above Russell Landing basin (02244333), Tomoka River basin (02247510), Turkey Creek basin (02250030), St. Johns River near Christmas basin (02232500), Econlockhatchee River basin (02233484), Wekiva River basin (02235000), Deep Creek basin (02245260), Black Creek basin (02245500), North Fork Black Creek basin (02246000), Eau Gallie River basin (02249007), and South Prong at St. Sebastian River basin (02251000). Inflows and outflows from various sources in the water-balance equation used to calculate annual average wbETa rates for each basin in the SJRWMD area are presented in this dataset.

Actual evapotranspiration (ETa) rates from the Operational Simplified Surface Energy Balance (SSEBop) method, before and after bias corrections, are presented for basins located wholly or partially within the St. Johns River Water Management District (SJRWMD). The SSEBop annual rates are provided at about a one square-kilometer scale from 2000 to 2017. Annual ETa rates calculated from the application of the water-balance method (wbETa) to 19 basins in the SJRWMD and annual land-use ETa (luETa) rates calculated from monthly average crop coefficient ratios are also provided in this data set. A GIS shapefile provides land-use type and annual ETa rate for each year of record. Data are tabulated in spreadsheets for each basin and are referred to by the name between parenthesis: Fort Drum Creek basin (02231342), Blue Cypress Creek basin (02231396), St. Johns River at Melbourne basin (02232000), Pennywash Creek basin (02232155), Apopka Beauclair Canal basin (02237700), Ocklawaha Moss Bluff basin (02238500), Orange Creek at Orange Spring basin (02243000), St. Johns River at Buffalo Bluff basin (02244040), Haw Creek above Russell Landing basin (02244333), Tomoka River basin (02247510), Turkey Creek basin (02250030), St. Johns River near Christmas basin (02232500), Econlockhatchee River basin (02233484), Wekiva River basin (02235000), Deep Creek basin (02245260), Black Creek basin (02245500), North Fork Black Creek basin (02246000), Eau Gallie River basin (02249007), and South Prong at St. Sebastian River basin (02251000). Inflows and outflows from various sources in the water-balance equation used to calculate annual average wbETa rates for each basin in the SJRWMD area are presented in this dataset.